DE102010010204A1 - Projection system for a motor vehicle headlight - Google Patents

Abstract

The invention relates to a projection system (1) for a motor vehicle headlight, comprising at least one LED light source (2, 2 ') which is constructed from one or more light-emitting diodes (3) which emit light beams, and wherein each LED light source ( 2, 2 ') has a primary optics (4, 4') for bundling the light beams emitted by their light emitting diodes (3), an aperture arrangement (5) for shading at least part of the bundled light from at least one LED light source (2, 2 '), and at least one secondary optics (7) in order to project the bundled and past the diaphragm assembly (5) light beams to generate a predetermined light distribution in the light exit direction on the road ahead of the vehicle, wherein the diaphragm assembly (5) at least one movable diaphragm (6). According to the invention, the at least one diaphragm (6) has at least one optically active diaphragm section (11, 11 ') which has at least one optically effective diaphragm edge (12, 12'), the diaphragm (6) furthermore has at least one fastening section (13, 13 '), by means of which the diaphragm (6) can be fastened with respect to the at least one LED light source (2, 2'), and the optically effective diaphragm section (11, 11 ') is connected via at least one connecting element (14, 14'). ), which protrudes at an angle from the optically effective diaphragm portion (11, 11 '), connected to the mounting portion (13, 13'). The at least one connecting element ...

Description

The The invention relates to a projection system for a motor vehicle headlight, comprising at least one LED light source, which consists of one or more Constructed light emitting diodes which emit light rays, and wherein each LED light source is a primary optic for bundling the light rays emitted by their light emitting diodes, an aperture arrangement for shading at least a part of the bundled light from at least one LED light source, and at least one secondary optics to the bundled and past the diaphragm assembly came light rays to produce a predetermined light distribution in the light exit direction on the road projecting in front of the vehicle, wherein the aperture arrangement at least one includes movable diaphragm.

Such a projection system is for example from the DE 20 2007 018 181 U1 known. This document describes how to create a dynamic curve light function.

at The object of the present invention is the modification of a projection system mentioned at the outset that different Light functions can be realized with the projection system, for example a low beam and a high beam function, and that a gliding, flowing transition when switching between the respective light distributions is possible and also intermediate light distributions can be realized.

These Task becomes with a projection system mentioned above thereby solved that the invention at least a diaphragm has at least one optically effective diaphragm section, which has at least one optically effective diaphragm edge, the Aperture further comprises at least one attachment portion, by means of which the aperture with respect to the at least one LED light source fastened is, and wherein the optically effective aperture section over at least one connecting element, which at an angle of the optically effective aperture portion protrudes, with the attachment portion is connected, and wherein the at least one connecting element with the optically effective diaphragm section via a flexurally elastic Connecting portion is connected and the at least one connecting element with the attachment section also via a flexurally elastic Connecting portion is connected.

With the attachment portion, the optically relevant region of Aperture with respect to the LED light source (s) are stably fixed. With the preferably rigidly formed connecting element is the optically relevant area in the optically desired Position brought. An adjustment of the optically relevant area the aperture, d. H. the at least one diaphragm edge, results by bending the flexurally elastic regions by suitable means, as will be discussed later.

to Terminology is noted at this point that in this Text with "Aperture" always the whole (on or multi-piece) element of optically effective diaphragm section, Connecting section (s), fixing section (s), flexible bending Section (s), etc. is called, because in a preferred variant as explained below all these sections be worked out from a single element. Actually it acts it is the "aperture" but only the visual effective range of the "iris" referred to in this text Element which has the one or more diaphragm edges. The others Components are used for adjustable storage of the aperture in relation on the LED light sources; from the mentioned and later but the reasons described will nevertheless be the entire element referred to as "aperture".

at a specific embodiment of the invention is the at least one Attachment section substantially planar, thereby this is large and accordingly stable attach, and is essentially parallel to that also preferably substantially planar formed optically effective aperture section lies.

Of the optically effective diaphragm section is preferably flat, because this is easy to produce and also the exit surface The primary optics usually trained just is. In principle, the exit surface must be a primary optic but not be even. However, the aperture in a very small Distance is located in front of the primary optics and the aperture moving in terms of primary optics is common practice only a curvature of the primary optic normal to the direction of movement conceivable with a correspondingly adapted curvature of the optically effective diaphragm section.

In a particularly preferred variant, which has already been mentioned, the at least one diaphragm is formed from a flat, flexurally elastic material, wherein the at least one connecting element by bending at least a portion of the flexurally elastic material in the region of the at least one connecting portion, which at least one arises optically effective region of the diaphragm with the at least one connecting element, arises, and wherein the at least one fastening portion abgegewan by bending one of the optically effective range Deten area of the connecting element or a subsequent to the at least one connecting element connecting portion takes place.

at This variant can be the entire aperture in its final Form bent out of a single component and cut out be what in a comparatively simple production with few Steps results.

Around The aperture particularly stable and especially against tilting Secured secured, it is advantageous if provided at least two spaced apart connecting elements are.

Especially if the material used is a flexurally elastic Material trades it is advantageous if in the area of at least one Connecting element stiffeners are provided.

Furthermore, it is in this context of advantage, if at least in the adjoining the at least one connecting element Area of the optically effective area of the aperture stiffeners are provided.

These Stiffeners prevent bending of the connecting element or the optically effective region of the diaphragm, which is planar are, in a direction normal to the plane spanned by them; they're stiff in the other directions anyway, because they're flat. In order to the area of the bend is clearly confined to the area the preferably rounded connection sections, only in these defined areas is a deformation of the diaphragm instead, which leads to a movement of the optically effective range the aperture leads.

ever according to the design of the system and in particular by arrangement and mode of action the means for adjusting the aperture is either at least a connecting element at an obtuse angle of the optical effective area of the diaphragm, and that is at least one connecting element at an obtuse angle from the mounting area, or the at least one connecting element is under a point Angle of the optically effective range of the diaphragm from, and the at least one connecting element is at an acute angle from the attachment area.

in the built-in state, the at least one aperture is biased, such that the angles between connecting element and optically effective area the aperture on the one hand and the attachment portion on the other bent to about 90 °.

The Size of the angles in the unbiased state depends on the material used for the panel or generally speaking of the material used for the Verbindungsab sections and from the on the panel or the Connecting portions acting forces. At the acting forces relevant here is the biasing force for the aperture, which must be so large that the aperture in driving is not vibrates.

For typical materials used and application has been found that the obtuse angle is in a range between 90 ° -95 °, typically the obtuse angle is about 92 °.

If it is an acute angle, so is the waving in a range of 85 ° - 90 °, typically at about 88 °.

In order to also during driving an adjustment of the aperture is possible, is at least one drive for moving the provided at least one aperture.

at a concrete variant is provided that the at least one Drive is a stepper motor. Because with the aperture very small travels must be realized (typically according to 1/10 mm travel around 1 ° reduction / increase in the photograph), These fine steps are in the transition between the individual Gradations in the photo not or hardly recognizable.

It can also be provided that the at least one drive a magnetic Drive is, preferably in the form of a solenoid. With such a Drive can be an actually continuous transition reach between photographs.

With This at least one drive is the aperture in the installed state biased.

in the The invention is closer to the drawing explained. In this shows

1 an inventive system with an LED light source in a perspective view obliquely from the front,

2 the system off 1 in a side view,

3 the system off 1 in a partially sectioned view,

4 an inventive system with two superimposed LED light sources in a partially sectioned view,

5 a detailed view of a panel for a system 1 - 4 in a perspective view from diagonally behind,

6 a detailed view of a panel for a system 1 - 4 in a perspective view obliquely from the front,

7 an inventive system with two laterally juxtaposed LED light sources,

8th a detailed view of the aperture for the system 7 , and

9 a schematic side view of an example of a panel according to the invention.

The 1 - 3 show a first variant of a system according to the invention or LED headlight module. The module consists of a basic carrier 100 on which an LED light source 2 containing a number of light-emitting diodes 3 includes, is attached. The LED light source 2 is part of a projection system 1 , which is also a primary optic 4 for bundling the light-emitting diodes 3 Having emitted light rays.

Furthermore, the projection system includes 1 a diaphragm arrangement 5 for shading at least part of the collimated light from the LED light source 2 , As in 2 In addition, can still be recognized, is still a secondary optics 7 provided to the bundled and attached to the aperture assembly 5 passed light beams to produce a predetermined light distribution in the light exit direction projected onto the roadway in front of the vehicle.

The aperture arrangement 5 includes a movable bezel 6 , which - in the installed state of the entire module - in the height direction is movable up and down. In this way, a part or - in an extreme case - the entire luminous flux from the LED light source can be shaded, and correspondingly different light distributions can be generated. In the position shown is z. B. the light exit surface about half covered, it is produced a low beam distribution. By moving down the aperture is successively less light shaded until the light exit surface is completely released and a high beam distribution is generated.

The aperture 6 itself is powered by a drive 8th moved in the vertical direction, in this illustration, the drive 8th is arranged above the aperture and the aperture 6 moved downward by applying pressure. The aperture 6 It has flexible elastic surfaces so that it can be relieved by the drive 8th the aperture 6 again moved upwards accordingly.

The movement of the aperture 6 down is through a stop 9 limited. The stop 9 is in this variant on the bracket 20 for primary optics 4 appropriate.

The diaphragm according to the invention 6 has an optically effective aperture section 11 which has an optically effective diaphragm edge 12 having. By means of this bezel edge 12 In the end, the light picture is created.

The light exit surface of the primary optics 4 is just formed, the optically effective region of the diaphragm is likewise formed flat and arranged parallel to the light exit surface.

The aperture 6 is about two attachment sections 13 of which in the 1 - 3 only one can be seen, with respect to the LED light source 2 z. B. on the carrier 10 or attached to the LED print.

4 shows a similar arrangement as those in the 1 - 3 , with the difference that here are two LED light sources 2 . 2 ' with light-emitting diodes 3 . 3 ' are arranged one above the other, each LED light source 2 . 2 ' a primary optic 4 . 4 ' assigned. The light exit surfaces of the two primary optics 4 . 4 ' form a common plane, in front of which the optically effective area 11 the aperture 6 with the bezel edge 12 is arranged and with the drive 8th can be moved up and down. Depending on the position of the aperture 6 the luminous flux of both light sources can be completely released or one or both light sources can be partially or completely shaded.

In the variant of the 1 - 3 In the basic position of the diaphragm (dipped beam) 50% of the luminous flux is shaded, resulting in a poor efficiency. In the variant after 4 In the initial position, the lower LED light source is switched off so that in the basic position no light is lost in the diaphragm. The lower LED light source is not activated until the bezel is moved away from the home position so that additional light output from the lower LED light source can be used.

In the 5 and 6 is a blind 6 as they are in principle in a system according to one of 1 - 3 or after 4 can be used, shown in detail.

As already mentioned, the aperture has 6 via an optically effective aperture section 11 with the bezel edge 12 , The optically effective aperture cut 11 is about two fasteners 14 . 14 ' , which at an angle from the optically effective diaphragm section 11 stand out, with the fixing sections 13 . 13 ' connected. The attachment sections 13 . 13 ' have openings, z. B. slots on which the mounting portions with the carrier 100 can be fixed by means of screws etc.

The connecting elements 14 . 14 ' are with the optically effective aperture section 11 each via a flexurally elastic connecting portion 15 . 15 ' connected is. Likewise, the fasteners 14 . 14 ' with the attachment sections 13 . 13 ' each via a flexurally elastic connecting portion 16 . 16 ' connected is.

With the fixing portion, the optically relevant area of the diaphragm with respect to the LED light source (s) can be stably fixed. With the preferably rigidly formed connecting element, the optically relevant region is brought into the optically desired position. An adjustment of the optically relevant region of the diaphragm, ie the at least one diaphragm edge, is obtained by bending the flexurally elastic regions by the action of force of the drive 8th on the aperture 6 ,

In the illustration shown has the aperture 6 in its upper area via a drive attack area 21 , in the specific case to a flat portion with an opening in which the drive 8th is attached with its actuator.

The attachment sections 13 . 13 ' are flat, whereby they are large and correspondingly stable on the support 100 let, and they are substantially parallel to the newly formed optically effective aperture portion 11 ,

Basically, the aperture could be like in the 5 and 6 shown to be constructed of individual elements.

In a preferred variant and variant shown in the figures, the aperture 6 is formed of a flat, flexurally elastic material, wherein the connecting elements 14 . 14 ' by bending over regions of the flexurally elastic material in the region of the connecting sections 15 . 15 ' arise, and wherein the attachment sections 13 . 13 ' each by bending one of the optically effective range 11 . 11 ' remote area of the connecting element 14 . 14 ' or one to the respective connecting element 14 . 14 ' subsequent connection section 16 . 16 ' he follows.

at This variant can be the entire aperture in its final Form bent out of a single component and cut out be what in a comparatively simple production with few Steps results.

Like that 5 and 6 it can also be seen in the area of the connecting elements 14 . 14 ' stiffeners 17 . 17 ' extending over part of the longitudinal extent of the fasteners 14 . 14 ' extend and from these in something at a right angle.

Likewise, at the optically effective region 11 the aperture 6 stiffeners 18 . 18 ' intended.

These stiffeners prevent bending of the connecting element or the optically effective region of the diaphragm, which are just formed, in a direction normal to the plane spanned by them; they're stiff in the other directions anyway, because they're flat. Thus, the region of the bend is clearly limited to the region of the preferably rounded trained connecting sections 15 . 15 ' . 16 . 16 ' , only in these defined areas will find a deformation of the aperture 6 instead, which leads to a movement of the optically effective range 11 the aperture leads.

Depending on the design of the system and in particular on the arrangement and mode of action of the means for adjusting the diaphragm is either the at least one connecting element 14 at an obtuse angle α1 of the optically effective region of the diaphragm 11 from, and that at least one connecting element 14 is at an obtuse angle α2 from the attachment area s13, as shown in FIG 9 easy to recognize.

It but can also be provided that the at least one connecting element at an acute angle from the optically effective region of the Aperture protrudes, and that at least one fastener below an acute angle from the mounting portion protrudes (not shown).

When installed, the aperture is 6 from the drive 8th biased, such that the angles α1, α2 between connecting element 14 . 14 ' and optically effective range 11 . 11 ' the aperture 6 on the one hand and the attachment section 13 . 13 ' on the other hand bent to about 90 °.

The size of the angle in the non-prestressed state depends on the material used for the diaphragm or, generally speaking, on the material used for the connecting portions and on the forces acting on the diaphragm or the connecting portions. When the forces acting here is the biasing force for the aperture, which must be so large that the aperture not vibrating while driving.

For typical materials used and application has been found that the obtuse angle α1, α2 in one area between 90 ° -95 °, typically the obtuse angle α1, α2 is approx. 92 °.

If it is an acute angle, so is the waving in a range of 85 ° - 90 °, typically at about 88 °.

At the drive 8th For example, it is a stepper motor, but it can also be a magnetic drive used.

ever according to desired application can be different many LED light sources in different arrangements and different many apertures each with one or more aperture edges provided be.

The 1 - 3 show a system where exactly one aperture 6 is provided, which exactly a diaphragm edge 12 has, wherein the aperture 6 a single LED light source 2 assigned.

4 shows a system with exactly one aperture 6 , which exactly one aperture edge 12 has, wherein the aperture 6 two superimposed LED light sources 2 . 2 ' assigned. It could also be provided a plurality of superimposed light sources.

7 shows another system with exactly one aperture 6 ( 8th ), which are two optically effective regions 11 . 11 ' each with an aperture edge 12 . 12 ' and wherein the diaphragm edges 12 . 12 ' the aperture each different LED light sources 2 . 2 ' assigned. The drive 8th is located here in a lower area and works on train. There are also two stops 9 . 9 ' to limit the movement of the aperture 6 provided down. Otherwise, the aperture shows 6 essentially the same construction as the aperture of the 5 and 6 on.

The currently available LED modules (LED light sources) do not provide enough luminous flux to comply with the legal values for dipped and main beam with one module. By using 2 modules enough luminous flux can be achieved. 7 shows a solution to still be able to realize a simultaneous switching of both light sources with only one drive.

The Invention has several advantages. To move the aperture or the optically effective aperture sections, even if they are multiple, only one engine is necessary. It can be easily z. B. a Dynamic high beam are generated, and it is a permanent one Switching between light distributions or adjusting the light distribution possible. The bezel has no moving parts and there are no guides necessary. The aperture can simple and inexpensive mass-produced become. The aperture also has only a small mass on, so that only small forces and a corresponding dimensioned drive are necessary.

The The invention was particularly based on low beam and high beam discussed. Of course you can but with one Such systems also generate other light distributions.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• - DE 202007018181 U1 [0002]

Claims (20)

Projection system ( 1 ) for a motor vehicle headlamp, comprising - at least one LED light source ( 2 . 2 ' ), which consists of one or more light-emitting diodes ( 3 ), which emit light beams, and wherein each LED light source ( 2 . 2 ' ) a primary optic ( 4 . 4 ' ) for bundling the light emitting diodes ( 3 ) has emitted light beams, - a diaphragm arrangement ( 5 ) for shading at least part of the collimated light from at least one LED light source ( 2 . 2 ' ), and - at least one secondary optic ( 7 ) to the bundled and the aperture assembly ( 5 ) projected light beams to generate a predetermined light distribution in the light exit direction on the road in front of the vehicle to project, the diaphragm arrangement ( 5 ) at least one movable diaphragm ( 6 ), characterized in that the at least one aperture ( 6 ) at least one optically effective diaphragm section ( 11 . 11 ' ), which has at least one optically effective diaphragm edge ( 12 . 12 ' ), the diaphragm ( 6 ) at least one attachment section ( 13 . 13 ' ), by means of which the diaphragm ( 6 ) with respect to the at least one LED light source ( 2 . 2 ' ), and wherein the optically effective diaphragm section ( 11 . 11 ' ) via at least one connecting element ( 14 . 14 ' ), which at an angle from the optically effective diaphragm section ( 11 . 11 ' ) protrudes, with the attachment section ( 13 . 13 ' ), and wherein the at least one connecting element ( 14 . 14 ' ) with the optically effective diaphragm section ( 11 . 11 ' ) via a flexurally elastic connecting section ( 15 . 15 ' ) and the at least one connecting element ( 14 . 14 ' ) with the attachment section ( 13 . 13 ' ) also via a flexurally elastic connecting section ( 16 . 16 ' ) connected is. System according to claim 1, characterized in that the at least one fastening section ( 13 . 13 ' ) is substantially flat and substantially parallel to the also preferably substantially planar formed optically effective diaphragm portion ( 11 . 11 ' ) lies. System according to claim 1 or 2, characterized in that the at least one aperture ( 6 ) is formed from a flat, flexurally elastic material, wherein the at least one connecting element ( 14 . 14 ' ) by bending at least a portion of the flexurally elastic material in the region of the at least one connecting portion (FIG. 15 . 15 ' ), which comprises the at least one optically effective region ( 11 . 11 ' ) the aperture ( 6 ) with the at least one connecting element ( 14 . 14 ' ), and wherein the at least one attachment portion ( 13 . 13 ' ) by bending one of the optically effective region ( 11 . 11 ' ) remote area of the connecting element ( 14 . 14 ' ) or one to the at least one connecting element ( 14 . 14 ' ) subsequent connecting section ( 16 . 16 ' ) he follows. System according to one of claims 1 to 3, characterized in that at least two spaced-apart connecting elements ( 14 . 14 ' ) are provided. System according to one of claims 2 to 4, characterized in that in the region of the at least one connecting element ( 14 . 14 ' ) Stiffeners ( 17 . 17 ' ) are provided. System according to one of claims 2 to 5, characterized in that at least in which the at least one connecting element ( 14 . 14 ' ) subsequent region of the optically active region ( 11 . 11 ' ) the aperture ( 6 ) Stiffeners ( 18 . 18 ' ) are provided. System according to one of claims 1 to 6, characterized in that the at least one connecting element ( 14 . 14 ' ) at an obtuse angle (α1) of the optically active region of the diaphragm ( 11 . 11 ' ) protrudes, and the at least one connecting element ( 14 . 14 ' ) at an obtuse angle (α2) from the attachment area ( 13 . 13 ' ) protrudes. System according to one of claims 1 to 6, characterized in that the at least one connecting element at an acute angle from the optically effective region of the Aperture protrudes, and that at least one connecting element under one acute angle protrudes from the mounting area. System according to claim 7, characterized in that the obtuse angle (α1, α2) in a range between 90 ° -95 °. System according to claim 9, characterized in that that the obtuse angle (α1, α2) is about 92 °. System according to claim 8, characterized that the acute angle is in a range of 85 ° -90 °. System according to claim 11, characterized in that that the acute angle is about 88 °. System according to one of claims 7 to 12, characterized in that in the installed state, the at least one aperture ( 6 ) is biased such that the angles (α1, α2) between Verbin element ( 14 . 14 ' ) and optically active region ( 11 . 11 ' ) the aperture ( 6 ) on the one hand and the attachment section ( 13 . 13 ' ) are bent on the other hand to about 90 °. System according to one of claims 1 to 13, characterized in that at least one drive ( 8th ) for moving the at least one aperture ( 6 ) is provided. System according to claim 14, characterized in that the at least one drive ( 8th ) is a stepper motor. System according to claim 14, characterized in that the at least one drive ( 8th ) is a magnetic drive. System according to claim 13 and one of claims 14 to 16, characterized in that the diaphragm ( 6 ) in the installed state with the at least one drive ( 8th ) is biased. System according to one of claims 1 to 17, characterized in that exactly one aperture ( 6 ) is provided, which exactly one aperture edge ( 12 ), wherein the diaphragm ( 6 ) of a single LED light source ( 2 ) assigned. System according to one of claims 1 to 17, characterized in that exactly one aperture ( 67 ) is provided, which exactly one aperture edge ( 12 ), wherein the diaphragm ( 6 ) two or more superimposed LED light sources ( 2 . 2 ' ) assigned. System according to one of claims 1 to 17, characterized in that exactly one aperture ( 6 ), which has two or more diaphragm edges ( 12 . 12 ' ), and wherein the diaphragm edges ( 12 . 12 ' ) of the aperture in each case different LED light sources ( 2 . 2 ' ) assigned.